Physical Review Research (Jan 2020)

Flopping-mode electric dipole spin resonance

  • X. Croot,
  • X. Mi,
  • S. Putz,
  • M. Benito,
  • F. Borjans,
  • G. Burkard,
  • J. R. Petta

DOI
https://doi.org/10.1103/PhysRevResearch.2.012006
Journal volume & issue
Vol. 2, no. 1
p. 012006

Abstract

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Traditional approaches to controlling single spins in quantum dots require the generation of large electromagnetic fields to drive many Rabi oscillations within the spin coherence time. We demonstrate “flopping-mode” electric dipole spin resonance, where an electron is electrically driven in a Si/SiGe double quantum dot in the presence of a large magnetic field gradient. At zero detuning, charge delocalization across the double quantum dot enhances coupling to the drive field and enables low-power electric dipole spin resonance. Through dispersive measurements of the single-electron spin state, we demonstrate a nearly three order of magnitude improvement in driving efficiency using flopping-mode resonance, which should facilitate low-power spin control in quantum dot arrays.